CN114412128A - Composite floor heat-insulating layer structure - Google Patents

Abstract

The invention discloses a composite floor heat-insulating layer structure which comprises a heat-insulating substrate arranged at the bottom of a floor to supply heat indoors, wherein the heat-insulating substrate comprises a moisture-proof layer, a floor heat-insulating layer, a temperature reflecting layer, a warm water pipe mounting layer and a heat-permeable layer which are sequentially and compositely arranged from bottom to top, and the thickness of the floor heat-insulating layer is greater than that of the moisture-proof layer and the temperature reflecting layer; the upper surface of the warm water pipe installation layer is provided with a plurality of warm water pipe installation grooves for installing warm water pipes along the length direction, a plurality of supporting pieces are uniformly arranged between two adjacent warm water pipe installation grooves along the length direction, the supporting pieces are embedded in the warm water pipe installation layer, and the upper end surface and the lower end surface of each supporting piece are respectively flush with the upper end surface and the lower end surface of the warm water pipe installation layer; the left and right sides symmetry at warm water pipe mounting groove middle part is provided with the trapezoidal draw-in groove of outside extension, and warm water pipe buries underground in warm water pipe mounting groove and fixes through the joint spare that the card was established in trapezoidal draw-in groove.

Description

Composite floor heat-insulating layer structure

Technical Field

The invention relates to the technical field of floor heat-insulating structures, in particular to a composite floor heat-insulating layer structure.

Background

The floor heating is short for floor radiation heating, the whole floor is used as a radiator, the whole floor is uniformly heated through a heating medium in a floor radiation layer, heat is supplied to the indoor through the floor in a radiation and convection heat transfer mode, the purpose of comfortable heating is achieved, the floor heating is divided into water floor heating and electric floor heating according to different heat transfer media, and the floor heating is mainly divided into dry floor heating and wet floor heating according to different paving structures. In recent years, geothermal heating is more popular, the comfort brought by the floor heating in cold winter is incomparable with other heating modes, however, the existing floor for the floor heating has some defects in the using process, such as the heat insulation material of the floor heating is easy to deform after being pressed by heavy furniture and electric appliances for a long time, and the floor heating is not good in waterproofness and easy to mildew; in addition, the heating experience of users is influenced by the conditions that the place of the water heating pipeline is hot, the ambient temperature is low, the heat dissipation is uneven and the like.

Disclosure of Invention

The invention aims to solve the technical problem of providing a composite floor insulating layer structure which is simple in structure, uniform in heat conduction and longer in service life, aiming at the defects in the prior art.

The invention aims to provide a composite floor heat-insulating layer structure, which comprises a heat-insulating substrate, wherein the heat-insulating substrate is arranged at the bottom of a floor to supply heat indoors, the heat-insulating substrate comprises a moisture-proof layer, a floor heat-insulating layer, a temperature reflecting layer, a warm water pipe mounting layer and a heat-permeable layer which are sequentially and compositely arranged from bottom to top, and the thickness of the floor heat-insulating layer is greater than that of the moisture-proof layer and the temperature reflecting layer; the upper surface on warm water pipe installation layer sets up a plurality of warm water pipe mounting grooves that are used for installing warm water pipeline along length direction, and evenly is provided with a plurality of support piece along length direction between two adjacent warm water pipe mounting grooves, support piece buries underground in warm water pipe installation layer and support piece's upper and lower terminal surface flushes with the upper and lower terminal surface on warm water pipe installation layer respectively.

Further, the left and right sides symmetry at warm water pipe mounting groove middle part is provided with outside trapezoidal draw-in groove that extends, and warm water pipe buries underground in warm water pipe mounting groove and establishes the joint spare in trapezoidal draw-in groove through the card and fix.

Furthermore, the left side and the right side of the warm water pipe installation layer are respectively provided with a water inlet pipe connector and a water outlet pipe connector which are communicated with a warm water pipe in the warm water pipe installation layer, and two adjacent heat preservation substrates are communicated through the water inlet pipe connector or the water outlet pipe connector to carry out hot water circulation.

Furthermore, the heat-permeable layer comprises a substrate made of polystyrene material and a plurality of heat-permeable holes uniformly formed in the upper surface of the substrate, and adjacent heat-permeable holes are communicated through heat-permeable grooves.

Further, the joint spare includes the trapezoidal fixture block of joint spare body and the integral type setting at this joint spare body both ends of U-shaped structure, the top height of joint spare body flushes or is slightly less than the upper surface on warm water pipe installation layer with the upper surface on warm water pipe installation layer.

The invention has the beneficial technical effects that: the heat-insulating substrate comprises a moisture-proof layer, a floor heat-insulating layer, a temperature reflecting layer, a warm water pipe mounting layer and a heat-permeable layer which are sequentially compounded from bottom to top, wherein the moisture-proof layer is used for preventing ground moisture from permeating, the floor heat-insulating layer and the temperature reflecting layer are used for insulating warm water permeating through a warm water pipe, the heat-permeable layer can uniformly permeate hot air to the floor, and a support piece in the warm water pipe mounting layer can increase the bearing capacity of the whole structure and cannot be locally sunken, so that the service life of the heat-insulating substrate is prolonged.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the heat permeable layer according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood by those skilled in the art, the present invention is further described with reference to the accompanying drawings and examples.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "inside", "outside", "lateral", "vertical", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or element referred to must have a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-2, the composite floor insulation layer structure of the present invention includes an insulation substrate installed at the bottom of a floor to supply heat to a room, wherein the insulation substrate includes a moisture-proof layer 1, a floor insulation layer 2, a temperature reflection layer 3, a warm water pipe installation layer 4 and a heat-permeable layer 5, which are sequentially and compositely installed from bottom to top, the temperature reflection layer 3 is generally a temperature reflection film, and the thickness of the floor insulation layer 2 is greater than the thicknesses of the moisture-proof layer 1 and the temperature reflection layer 3, such that the insulation effect is better. Warm water pipe installation layer 4's upper surface is seted up a plurality of warm water pipe mounting grooves that are used for installing warm water pipe 6 along length direction, and evenly is provided with a plurality of support piece 7 along length direction between two adjacent warm water pipe mounting grooves, and support piece 7's cross section is I shape structure, and it includes upper and lower round platform and sets up the support column between two round platforms, support piece 7 buries underground in warm water pipe installation layer 4 and support piece 7's upper and lower terminal surface flushes with warm water pipe installation layer 4's upper and lower terminal surface respectively.

Referring to fig. 1, the left and right sides symmetry at warm water pipe mounting groove middle part is provided with the trapezoidal draw-in groove of outside extension, and warm water pipe 6 buries underground in warm water pipe mounting groove and establishes the joint spare 8 in trapezoidal draw-in groove through the card and fix. The joint spare 8 includes that joint spare body and the integral type of U-shaped structure set up the trapezoidal fixture block at this joint spare body both ends, the top height of joint spare body flushes or is slightly less than the upper surface on warm water pipe installation layer with the upper surface on warm water pipe installation layer. The left and right sides of warm water pipe installation layer 4 is provided with respectively with the inlet tube connector and the outlet pipe connector of the warm water pipeline 6 intercommunication in warm water pipe installation layer 4, through inlet tube connector or outlet pipe connector intercommunication in order to carry out hot water circulation between two adjacent heat preservation baseboards.

Referring to fig. 2, the heat permeable layer 5 includes a substrate 9 made of polystyrene material and a plurality of heat permeable holes 10 uniformly formed in an upper surface of the substrate, wherein the depth of each heat permeable hole 10 is not greater than half of the thickness of the substrate 9, and adjacent heat permeable holes 10 are communicated through a heat permeable groove 11. Because the warm water pipeline 6 directly dispels the heat to the floor, consequently can have the inhomogeneous condition of heat dissipation, and the diathermanous layer 5 can effectively solve this kind of condition, can be with the even floor that permeates of heat that warm water pipeline 6 distributed through heat-permeating hole 10 and diathermanous groove 11 to increase the homogeneity of heating.

The heat-insulating substrate comprises a moisture-proof layer, a floor heat-insulating layer, a temperature reflecting layer, a warm water pipe mounting layer and a heat-permeable layer which are sequentially compounded from bottom to top, wherein the moisture-proof layer is used for preventing ground moisture from permeating, the floor heat-insulating layer and the temperature reflecting layer are used for insulating warm water permeating through a warm water pipe, the heat-permeable layer can uniformly permeate hot air to the floor, and a support piece in the warm water pipe mounting layer can increase the bearing capacity of the whole structure and cannot be locally sunken, so that the service life of the heat-insulating substrate is prolonged.

The specific embodiments described herein are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (5)

1. The utility model provides a combined type floor heat preservation layer structure, is including installing the heat preservation base plate in order to carry out heating indoor in the floor bottom, its characterized in that: the heat-insulation substrate comprises a moisture-proof layer, a floor heat-insulation layer, a temperature reflection layer, a warm water pipe installation layer and a heat-permeable layer which are sequentially and compositely arranged from bottom to top, wherein the thickness of the floor heat-insulation layer is greater than that of the moisture-proof layer and the temperature reflection layer; the upper surface on warm water pipe installation layer sets up a plurality of warm water pipe mounting grooves that are used for installing warm water pipeline along length direction, and evenly is provided with a plurality of support piece along length direction between two adjacent warm water pipe mounting grooves, support piece buries underground in warm water pipe installation layer and support piece's upper and lower terminal surface flushes with the upper and lower terminal surface on warm water pipe installation layer respectively.

2. The composite floor insulation layer structure of claim 1, wherein: the left and right sides symmetry at warm water pipe mounting groove middle part is provided with the trapezoidal draw-in groove of outside extension, and warm water pipe buries underground in warm water pipe mounting groove and fixes through the joint spare that the card was established in trapezoidal draw-in groove.

3. The composite floor insulation layer structure of claim 2, wherein: the left and right sides on warm water pipe installation layer is provided with respectively with the inlet tube connector and the outlet pipe connector of warm water pipe intercommunication in the warm water pipe installation layer, through inlet tube connector or outlet pipe connector intercommunication in order to carry out hot water circulation between two adjacent thermal insulation substrates.

4. A composite floor insulation layer structure as claimed in claim 2 or 3, wherein: the heat-permeable layer comprises a substrate made of polystyrene material and a plurality of heat-permeable holes uniformly formed in the upper surface of the substrate, and adjacent heat-permeable holes are communicated through heat-permeable grooves.

5. The composite floor insulation layer structure of claim 4, wherein: the joint spare includes that joint spare body and the integral type of U-shaped structure set up the trapezoidal fixture block at this joint spare body both ends, the top height of joint spare body flushes or is slightly less than the upper surface on warm water pipe installation layer with the upper surface on warm water pipe installation layer.

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